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Abstract:

A planar sheet comprising, on a first surface of the sheet, at least one
printed mark, and on a second surface of the sheet, opposite the first
surface, at least one invisible printed mark vertically adjacent to the
mark printed on the first surface. In at least one pair of vertically
adjacent marks formed on the opposite surfaces, at least one of the marks
of the pair has unique content. At least one invisible mark can be a
two-dimensional barcode and/or at least one invisible mark can be a
copy-protection mark. The content of at least one mark can be
representative of the position of an invisible mark on the sheet.

Claims:

1-12. (canceled)

13. Planar sheet, comprising: on a first surface of the sheet, at least
one printed mark; on a second surface of the sheet, opposite said first
surface, at least one invisible printed mark vertically adjacent to the
printed mark on said first surface; and in at least one pair of
vertically adjacent marks formed on said opposite surfaces, at least one
of the marks of said pair has unique content.

14. Sheet according to claim 13, wherein, each printed mark in said pair
of vertically adjacent marks is invisible.

15. Sheet according to claim 13, wherein each mark of said pair of
vertically adjacent marks has unique content.

16. Sheet according to claim 13, wherein said invisible mark is a
two-dimensional barcode.

17. Sheet according to claim 13, wherein said invisible mark is a
copy-protection mark.

18. Sheet according to claim 13, wherein said invisible mark is formed
with a varnish.

19. Sheet according to claim 13, wherein a content of said printed mark
on said first surface is representative of a position of said invisible
mark on said second surface of the sheet.

20. Method for manufacturing a planar sheet, comprising the steps of:
generating a mark having unique content; printing, on a first surface of
the sheet, at least one printed mark; printing, on a second surface of
the sheet, opposite said first surface, at least one invisible printed
mark vertically adjacent to the printed mark on said first surface; and
wherein at least one of the marks in at least one pair of vertically
adjacent marks formed on said opposite surfaces is the generated mark
having unique content.

21. Method for identifying a sheet, comprising the steps of: capturing an
image of a first mark on a first surface of the sheet; capturing an image
of a second invisible printed mark on a second surface of the sheet, said
second mark being vertically adjacent to the first mark printed on said
first surface; reading the content of one of the first and second marks,
at least one of the marks of said pair having unique content; and
identifying the sheet according to said unique content.

22. Method according to claim 21, wherein at least one of the steps of
capturing the image comprises the step of depositing visible material on
the mark of the captured image.

23. Device for manufacturing a planar sheet, comprising: a device for
generating a mark having unique content; a printer for printing, on a
first surface of the sheet, at least one printed mark, and printing on a
second surface of the sheet, opposite said first surface, at least one
invisible printed mark vertically adjacent to the printed mark on said
first surface; and wherein for at least one pair of vertically adjacent
marks formed on said opposite surfaces, at least one of the marks is the
generated mark having unique content.

24. Device for identifying a sheet, comprising: an image capturing device
for capturing an image of a first mark on a first surface of the sheet,
and capturing an image of a second invisible printed mark on a second
surface of the sheet, said second mark being vertically adjacent to a
mark printed on said first surface; a reader for reading the content of
one of the first and second marks, at least one of the marks of said pair
having unique content; and a processor for identifying the sheet
according to said content.

Description:

RELATED APPLICATIONS

[0001] This application is a §371 application from PCT/FR2010/052527
filed Nov. 25, 2010, which is herein incorporated by reference in its
entirety.

TECHNICAL FIELD OF INVENTION

[0002] This invention relates to a sheet, a method and a device for
manufacturing a sheet and a method and a device for identifying a sheet.
It applies, in particular, to the authentication of a paper sheet.

BACKGROUND OF THE INVENTION

[0003] Many means are known for authenticating a sheet, by giving it
recognizable characteristics during the manufacture of a sheet. For
example, a watermark makes it possible to modify a sheet's local
transparency. Similarly, inserting materials, such as fibers or bands,
into the paper should allow the sheets formed with this paper to be made
forgery-proof.

[0004] However, these techniques are very costly and are reproduced, more
or less closely, by counterfeiters.

[0005] There are techniques for memorizing physical characteristics of a
sheet, for example the shape of fibers in a given portion of the sheet.
However, recognition of the sheet on the basis of a new analysis is very
sensitive to variations in the analysis angle, particularly of the image
sensor, and in the end can only be used in a laboratory.

OBJECT AND SUMMARY OF THE INVENTION

[0006] The aim of the present invention is to remedy these drawbacks.

[0007] To this end, according to a first aspect, this invention envisages
a planar sheet, characterized in that it comprises:

[0008] on a first
surface of the sheet, at least one printed mark;

[0009] on a second
surface of the sheet, opposite said first surface, at least one invisible
printed mark vertically adjacent to a mark printed on said first surface;

[0010] in at least one pair of vertically adjacent marks formed on said
opposite surfaces, at least one of the marks of said pair has unique
content.

[0011] Thanks to these provisions, the sheet is protected in three ways.
Firstly, determining the presence of an invisible mark provides a first
level of protection. Secondly, the precision of the superimposition of
the marks gives a second level of protection since it is very difficult
to superimpose the printing of two marks on two opposite surfaces of a
sheet with precision. In addition, the unique content of at least one
mark borne by the sheet allows the sheet to be identified unequivocally.

[0012] According to particular features, in at least one pair of
vertically adjacent marks each printed mark is invisible.

[0013] Detecting the sheet's protection is thus even more difficult.

[0014] According to particular features, each of the marks of at least one
pair of vertically adjacent marks has unique content.

[0015] Identification of the sheet is therefore even stronger.

[0016] According to particular features, at least one said invisible mark
is a two-dimensional barcode. Thanks to these provisions, once an image
of the mark has been taken, standard processing systems can be used.

[0017] According to particular features, at least one said invisible mark
is a copy-protection mark. Thanks to these provisions, it can be
determined whether the sheet is an original or a copy.

[0018] According to particular features, at least one invisible mark is
formed with a varnish. Thanks to these provisions, the mark is especially
durable.

[0019] According to particular features, the content of at least one mark
is representative of the position of an invisible mark on the sheet.
Thus, to find an invisible mark, the content of another mark, e.g.
visible, is used.

[0020] According to a second aspect, this invention envisages a method of
manufacturing a planar sheet, characterized in that it comprises:

[0021] a step of generating a mark having unique content;

[0022] a step
of printing, on a first surface of the sheet, at least one printed mark;
and

[0023] a step of printing, on a second surface of the sheet, opposite
said first surface, at least one invisible printed mark vertically
adjacent to a mark printed on said first surface. In at least one
printing step, for at least the pair of vertically adjacent marks formed
on said opposite surfaces, at least one of the marks is a generated mark
having unique content.

[0024] According to a third aspect, this invention envisages a method of
identifying a sheet, characterized in that it comprises:

[0025] a step
of capturing an image of a first mark on a first surface of the sheet;

[0026] a step of capturing an image of a second mark on a second surface
of the sheet, vertically adjacent to the first mark;

[0027] a step of
reading the content of one of the first and second marks; and

[0028] a
step of identifying the sheet according to said content.

[0029] According to particular features, at least one of the steps of
capturing an image comprises a step of depositing visible material on the
mark of which an image is captured.

[0030] According to a fourth aspect, this invention envisages a device for
manufacturing a planar sheet, characterized in that it comprises:

[0031] a means of generating a mark having unique content;

[0032] a means
of printing, on a first surface of the sheet, at least one printed mark;
and

[0033] a means of printing, on a second surface of the sheet,
opposite said first surface, at least one invisible printed mark
vertically adjacent to a mark printed on said first surface. At least one
printing means, for at least the pair of vertically adjacent marks formed
on said opposite surfaces, is designed so that at least one of the marks
is a generated mark having unique content.

[0034] According to a fifth aspect, this invention envisages a device for
identifying a sheet, characterized in that it comprises:

[0035] a means
of capturing an image of a first mark on a first surface of the sheet;

[0036] a means of capturing an image of a second mark on a second surface
of the sheet, vertically adjacent to the first mark;

[0037] a means of
reading the content of one of the first and second marks; and

[0038] a
means of identifying the sheet according to said content.

[0039] As the particular characteristics, advantages and aims of this
manufacturing method, this identification method, this manufacturing
device and this identification device are similar to those of the sheet
that is the subject of this invention, as described in brief above, they
are not repeated here.

BRIEF DESCRIPTION OF THE DRAWINGS

[0040] Other advantages, aims and particular features of the present
invention will become apparent from the description that will follow,
made, as a non-limiting example, with reference to the drawings included
in an appendix, in which:

[0041] FIG. 1 represents, schematically, a first surface of a particular
embodiment of a sheet that is the subject of this invention;

[0042]FIG. 2 represents, schematically, a second surface of the sheet
shown in FIG. 1;

[0043]FIG. 3 represents, in the form of a logical diagram, steps utilized
in a particular embodiment of the manufacturing method that is the
subject of this invention;

[0044] FIG. 4 represents, in the form of a logical diagram, steps utilized
in a particular embodiment of the identification method that is the
subject of this invention;

[0045] FIG. 5 represents, schematically, a particular embodiment of the
manufacturing device that is the subject of this invention; and

[0046]FIG. 6 represents, schematically, a particular embodiment of the
identification device that is the subject of this invention.

DETAILED DESCRIPTION OF EMBODIMENTS

[0047] Note that the figures are not to scale.

[0048] FIGS. 1 and 2 show a planar sheet 100, which comprises:

[0049] on
a first surface 105, shown in FIG. 1, five printed marks 110, 115, 120,
125 and 130, and

[0050] on a second surface 150, shown in FIG. 2, three
printed marks 155, 160 and 165.

[0051] Sheet 100 is a planar sheet. It is, for example, made of paper,
laminated paper, fabric or plastic. In the case shown, the sheet 100 is a
standard-format sheet. The surfaces 105 and 150 are therefore coplanar.

[0052] Printed mark 110 is a visible mark positioned at the bottom of the
page. The content of mark 110 varies from one sheet to another and,
preferably, is unique for the sheet in question. In the embodiment
described, mark 110 is a two-dimensional barcode, also called
"Datamatrix". Printed mark 115 is a visible mark placed next to mark 110.
The content of mark 115 varies from one sheet to another and, preferably,
is unique for the sheet in question. In the embodiment described, mark
115 is a copy-protection mark, i.e. its characteristics degrade in a
measurable way during copying of the sheet 100.

[0053] For example, a copy-protection mark comprises a high level of
redundancies and is printed with a resolution, linked to the print
quality, such that, when printed, as a result of ad-hoc random physical
phenomena, the redundancy rate to be utilized for correcting and reading
the content of the copy-protection mark is high, preferably greater than
10 percent. Thus, a copy of the copy-protection mark, made with printing
means of a similar quality to those used for the initial printing, causes
an increase in the quantity of redundancies, to be utilized for
correcting and reading the content of the copy-protection mark, that can
be detected so as to recognize an original from a copy.

[0054] The reader may refer to sheet WO 2009 004172 (PCT FR2008/00743) for
the determination and manufacture of the mark 115.

[0055] The content of marks 110 and 115 is correlated, i.e. the content of
one of the marks 110 or 115 is a function of the content of the other
mark.

[0056] Printed marks 120, 125 and 130 are invisible marks. They are
formed, for example, with varnish or an enhanced invisible ink,
water-based. Mark 120 has a fixed content, i.e. common to a set of
sheets. Marks 125 and 130 have a unique content, i.e. only the sheet 100
bears them.

[0057] Printed marks 155, 160 and 165 are invisible marks. They are
formed, for example, with varnish. Mark 155 is vertically adjacent to
mark 120, i.e. it has the same dimensions as mark 120 and its outline is
vertically adjacent to the outline of mark 120. Marks 120 and 155
therefore have symmetrical shapes with respect to an axis of the sheet's
plane. Mark 160 is vertically adjacent to mark 125. Lastly, mark 165 is
not vertically adjacent to any mark of the first surface 105. The content
of marks 155 and 160 is unique.

[0058] Thus, in at least one pair of vertically adjacent marks 120-155 or
125-160, at least one of the marks of the pair has unique content.

[0059] According to variants, the sheet that is the subject of this
invention does not comprise any visible mark.

[0060]FIG. 3 shows that, to manufacture a sheet that is the subject of
this invention, first of all a step 305 is performed of determining
information that the content of the marks to be printed has to bear.

[0061] For example, this information comprises:

[0062] a manufacturing
order,

[0063] a production unit identifier,

[0064] a manufacturing date,

[0065] a manufacturing type,

[0066] a unique serial number and/or

[0067]
a placer of the manufacturing order.

[0068] During a step 310, a print position for at least one pair of
vertically adjacent marks is determined. For example, this position is
determined randomly.

[0069] Then, during a step 315, a copy-protection type of mark is formed
representative of at least one part of the information obtained during
step 305.

[0070] During a step 320, a two-dimensional barcode type of mark is formed
representative of at least one part of the information obtained during
step 305.

[0071] During a step 325, a mark is formed representative of the position
of each pair of vertically adjacent marks.

[0072] Preferably, during steps 315, 320 and 325, error correction codes
(or FEC, for "forward error correction") are inserted into the content of
the marks. The proportion of FEC redundancies is higher for the
copy-protection marks than for the two-dimensional barcodes.

[0073] It is noted that the marks coming from steps 315, 320 and 325 are
files of dots, e.g. binary, representing the print values to be realized.
For example, in the case of binary marks, for each dot to be printed, one
value represents printing and another value represents the absence of
printing.

[0074] During a step 330, the two surfaces of a sheet are printed
simultaneously to form on it the set of marks, visible or invisible,
vertically adjacent or not, described with reference to FIG. 1.
Preferably, the mark representative of the position of the other marks is
printed visibly and in a fixed position on the various sheets.

[0075] FIG. 4 shows that, to identify a sheet, i.e. to recognize it in a
unique way, in an embodiment of the identification method that is the
subject of this invention, first of all a step 405 is performed of
forming a base of uniform visible material. For example, carbon black is
deposited on a sheet.

[0076] Then, during a step 410, a visible mark on the sheet is read.

[0077] During a step 415, the position of each invisible mark is
determined according to the content of the visible mark.

[0078] During a step 420, the visible material is applied on the sheet, at
the places where the invisible marks are located.

[0079] During a step 425, the excess visible material is removed from the
places where the invisible marks are located, e.g. by applying and
removing an adhesive in these places.

[0080] During a step 430, an image is captured of the invisible mark made
visible by the remains of the visible material deposited, during steps
420 and 425.

[0081] It is noted that this image capture can be performed on the sheet
or on an adhesive having removed an excess of visible material.

[0082] Steps 415 to 430 are repeated for the invisible marks borne on the
two surface 105 and 150 of the sheet 100.

[0083] In a variant, steps 420 and 425 are eliminated and during step 430
a light with a non-visible wavelength and a sensor capable of capturing
the light emitted, reflected or filtered by each invisible mark, are used
to take an image of each invisible mark.

[0084] During a step 435, the information contained in the visible marks
is determined. Preferably, error correction codes are utilized to correct
the errors represented by the captured images and the quantity of FEC
redundancies used to correct the errors of the copy-protection marks is
measured.

[0085] During a step 440, it is determined, according to the redundancy
quantity used to correct the copy-protection marks, whether the sheet is
an original or a copy.

[0086] During a step 445, the precision of the superimposition of the
vertically adjacent invisible marks is measured and, according to a limit
value (e.g. a distance), it is determined whether the sheet is an
original or a copy. To do this, the images are processed to determine the
position of the center of each invisible mark, on each of the surfaces of
the sheet, and the distance between the centers of two vertically
adjacent invisible marks is determined.

[0087] During a step 450, an identity of the sheet is determined,
according to the content of the marks borne by the sheet and, in
particular, according to the content of the invisible marks.

[0088] It is noted that steps 435 and 445 can be performed locally or
remotely, e.g. by a server.

[0089] FIG. 5 shows a manufacturing device 505 comprising:

[0090] a
central processing unit 510 equipped with memories 511;

[0091] a printer
515; and

[0092] a connection to a computer network 520, for communicating
with a remote server 525.

[0093] The central processing unit 510 is designed to implement the steps
illustrated in FIG. 3, by executing the instructions of a computer
program held in its memories 511, in combination with the server 525, and
to control the printer 515. The server 525 hosts a database 530 wherein
an identifier of each sheet is held with the associated information, as
described with reference to step 305.

[0099] a connection to a computer network 620, for
communicating with a remote server 625.

[0100] The central processing unit 610 is designed to implement the steps
illustrated in FIG. 4, by executing the instructions of a computer
program held in its memories 611, in combination with the server 625, and
to control the capturing of images by the image capture means 615. The
server 625 hosts a database 630 wherein an identifier of each sheet is
held with the associated information, as described with reference to step
305.

[0101] The computer network 620 is, for example, the Internet network. The
image capture means 615 are, for example, comprised of a visible or
invisible light source and an image sensor designed to supply an image
representative of a visible or invisible mark borne by a sheet 635.

[0102] This invention finds applications in particular in the manufacture
of paper that is mostly or completely uniform, on which information can
be written or printed, in order to subsequently certify that the sheet
thus formed is an original.